The R&S®CMW-Z10 with R&S®CMW-Z11 offering excellent shielding effectiveness and superior coupling characteristics, the R&S®CMW-Z10 can be used for frequencies up to 6 GHz. These outstanding features combined with a modular options concept make the RF shield box indispensable for any radio communications tester.

Features

Wide frequency range up to 6 GHz

Ultralow reflections

Modular options concept and flexible assignment of modules

Technische Daten

Shielding effectivness

Including R&S®CMW-Z11, R&S®CMW-Z12, R&S®CMW-Z13, R&S®CMW-Z14

0.4 GHz to 4 GHz

> 80 dB

4 GHz to 6 GHz

> 60 dB

Kerndaten

Frequency range up to 6 GHz

Excellent shielding characteristics (< 80 dB)

Broadband spiral antenna allowing a wide variety of applications

Optimized antenna structure for extremely good RF coupling

Ergonomic closing mechanism

Sufficient space for tablets

Kurzbeschreibung

The R&S®CMW-Z10 with R&S®CMW-Z11 offering excellent shielding effectiveness and superior coupling characteristics, the R&S®CMW-Z10 can be used for frequencies up to 6 GHz. These outstanding features combined with a modular options concept make the RF shield box indispensable for any radio communications tester.

The RF shield box is made of solid aluminum. It is firmly closed by means of a lever handle with a defined stop. This ensures uniform compression of the sealing cords provided around the entire box . The cover is lined with absorber material, which minimizes reflections.

The antenna structure on the antenna coupler board has been optimized to enable an excellent radio connection. The highly broadband spiral antenna allows a wide variety of applications.

Merkmale

Wide frequency range up to 6 GHz

The R&S®CMW-Z10 with R&S®CMW-Z11 is suitable for applications up to 6 GHz, thereby covering all common wireless standards such as GSM, UMTS, LTE, CDMA2000®, WLAN, Bluetooth® and GPS. It offers high shielding effectiveness, so that the effects of external interference are reduced to a minimum.

Ultralow reflections

The cover of the RF shield box is lined with absorber material in order to minimize reflections. Strong reflections would cause a significant variation in attenuation as a function of the DUT position.

Modular options concept and flexible assignment of modules

The R&S®CMW-Z10 with R&S®CMW-Z11 has four module slots for different optional modules. Available options currently include a 25-pole D-Sub feedthrough (R&S®CMW-Z12), a USB 2.0 feedthrough (R&S®CMW-Z13), a twin N connector (R&S®CMW-Z14) and a 15-pole D-Sub feedthrough (R&S®CMW-Z15) for bidirectional audio testing. It is also possible to insert customer-specific modules.

Sufficient space allows optimum positioning, even for large DUTs such as tablets

Even large DUTs, such as tablets, can be accommodated. The RF shield box provides ample space for positioning DUTs to minimize the coupling attenuation between the DUT and the tester.

Designed for harsh, continuous duty and ergonomic operation

The RF shield box is designed to withstand the harsh conditions encountered in service and manufaturing environments. The closing mechanism has been optimized for ergonomic use, ensuring fatigue-proof handling while providing highquality results.

Mounted on the rear of the RF shield box, the R&S®CMW-Z16 allows radiated coupling of a MIMO DUT such as LTE MIMO 2x2. The standard antenna provides a coupling field in a 90° direction to the second antenna element (R&S®CMW-Z16). This provides the best coupling of MIMO devices in a near field environment.

Bidirectional audio tests

The R&S®CMW-Z15 audio measurement option offers the accessories required for bidirectional audio measurements in the R&S®CMW-Z10. The microphone and loudspeaker needed for the audio measurements can be optimally positioned within the RF shield box. The audio signals are transmitted via a shielded D-Sub feedthrough to minimize the effects of external interference on the shield box's characteristics. Audio signals are transmitted over the RF interface to a radiocommunications tester's audio code/decoder. The audio path can be measured by comparing the original signal to the recovered signal.